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Reanalysis of the oxidative stress paradigm of coral bleaching : the effects of nitric oxide

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M.S.Q111.H3 4163 MAY 2007 r.pdf Version for non-UH users. Copying/Printing is not permitted 3.59 MB Adobe PDF View/Open
M.S.Q111.H3 4163 MAY 2007 uh.pdf Version for UH users 3.58 MB Adobe PDF View/Open

Item Summary Boeing, Brian M. 2011-07-22T00:09:31Z 2011-07-22T00:09:31Z 2007
dc.description Thesis (M.S.)--University of Hawaii at Manoa, 2007.
dc.description Includes bibliographical references.
dc.description viii, 75 leaves, bound ill. 29 cm
dc.description.abstract Coral bleaching occurs when zooxanthellae (symbiotic algae) are expelled from the host, photosynthetic pigments are lost, or the coral gastroderma1 cells are sloughed off with the zooxanthellae inside. Although bleaching events have been increasing in frequency and severity, significant variation is seen between and within conspecific corals, calling the generality of proposed bleaching mechanisms into question. Increasing evidence suggests that high light regimes, and/or elevated temperature lead to the production of reactive oxygen species (ROS), such as hydrogen peroxide (H,O,), hydroxyl radicals (OH) and superoxide (Oi). Increasing temperatures speed up the electron transport rate of the algal chloroplast, as well as of the mitochondria within both the host and symbiont, also increasing the generation of superoxide. If the amount of ROS formed is greater than the anti-oxidant capacity within the holobiont, the partnership will become oxidatively stressed. Oxidants also include reactive nitrogen species (RNS), including nitric oxide, (NO}, and peroxynitrite, (ONOO). NO is an intra- and intercellular gaseous signaling molecule, with the ability to move freely across membranes, and promote a wide variety of physiological actions in plants and animals. NO's diverse array of reactions include direct bonding with oxidants (NO+O.=ONOO-), and the alteration of protein and enzymatic function by reacting with cysteine residues (S-nitrosylation), tyrosine residues (nitration) or transition metal containing proteins (heme groups). Laboratory and field measurements suggest that under elevated temperatures NO production increases within zooxanthellae, and is visualized in host cells containing symbionts. Also, the addition of exogenous NO has the ability to promote bleaching. Given the ubiquitous nature of oxidants, and the huge number of potential NO interactions, there is much to be learned about the molecular basis governing the maintenance and breakdown of coral-algal symbioses.
dc.language.iso en-US
dc.relation Theses for the degree of Master of Science (University of Hawaii at Manoa). Oceanography; no. 4163
dc.rights All UHM dissertations and theses are protected by copyright. They may be viewed from this source for any purpose, but reproduction or distribution in any format is prohibited without written permission from the copyright owner.
dc.subject Coral bleaching -- Hawaii -- Oahu
dc.title Reanalysis of the oxidative stress paradigm of coral bleaching : the effects of nitric oxide
dc.type Thesis
dc.type.dcmi Text
Appears in Collections: M.S. - Oceanography

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